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1/3
Assignment 3: Hashtable
Due No Due Date
Points 100
Submitting a file upload
Start Assignment
Language: Java or Python or C++
Task Description: Complete the following task.
Task-1: Implement a Hash data structure from scratch. You can’t use built-in Hash or Dictionary APIs.
You can use a built-in Array or List or your custom-built LinkedList. The Hash class must have the
following functions and fields -
HashTable: A fixed-size array or list. Depending on your hash function, this array or list can be
one-dimensional or two-dimensional.
hash(x): A hash function that converts a string x to an integer, i.e., index in the hashtable. You
can implement any hash function described in the textbook. Your hash function must have a
collision-resolution mechanism.
insert(x): Insert string x to the HashTable in the index returned by hash(x).
size(): Returns the size of the elements, i.e., the number of keys.
Write sample test cases to validate your implementation.
Task-2: Read and parse each word from the file pride-and-prejudice.txt
(https://canvas.eee.uci.edu/courses/68108/files/28223336?wrap=1)
(https://canvas.eee.uci.edu/courses/68108/files/28223336/download?download_frd=1) . Note that this file is
very large; therefore, reading the text at once will crash your program. You should read the text line by
line. To split a line into words, you can consider anything other than alpha-numeric (i.e. [a-zA-Z0-9])
characters as delimiters, for example, ‘\n’, ‘\t’, ‘,’, ‘.’ etc.
An Anagram is a word or phrase formed by rearranging the letters of a different word or phrase, typically
using all the original letters exactly once. For example, `mango` and `gonma` are anagrams containing
the same characters. Write a function that would find out how many unique anagram-root words are
there in the novel. An anagram-root word is a word that is derived by sorting the word by characters. For
example, `mango`’s anagram root is `agmno`.
To find the number of unique anagram roots, do the following steps.
Assignment 3: Hashtable
2/3
SWE-240P-Rubric
Step-1: While you parse each word from the file, sort the words by character. You can use any
built-in sorting API.
Step-2: Insert the sorted words in the hashtable you implemented above. If the word is already
present in the hashtable, then skip it.
Step-3: Once all the words have been sorted and inserted (or skipped), call the size() function of
the Hash class.
Note: You have to implement the classes from scratch. Please don’t engage in plagiarism in any
manner. See UCI’s policy on academic integrity (https://aisc.uci.edu/students/academic?integrity/promote-integrity.php (https://aisc.uci.edu/students/academic-integrity/promote-integrity.php) ).
Taking help from online materials is okay, but if you have taken any help online, please link the sources
in the comment inside the code.
Assignment 3: Hashtable
3/3
Total Points: 100
Criteria Ratings Pts
20 pts
30 pts
50 pts
Code Quality and Structure
-- Does the code have meaningful variable/method
names
-- Does the code contain comments where necessary?
-- Is the code organized and structured?
-- Is the code properly formatted/indented?
20 pts
Excellent
18 pts
Good
16 pts
Satisfactory
0 pts
No
Marks
Functionality and Correctness
-- Does the code run without any compilation errors
-- Does the implementation handle edge cases?
-- Does the code pass sample test cases?
-- Does the code pass new test cases?
30 pts
Excellent
27 pts
Good
24 pts
Satisfactory
0 pts
No
Marks
Presentation (Demo)
-- How well does the student explain the implemented
approach?
-- How well does the student walk through the
implementation?
-- How well does the student explain the trade-off (e.g.,
time, space complexity)?
-- How well does the student answer any relevant
questions?
50 pts
Excellent
45 pts
Good
40 pts
Satisfactory
0 pts
No
Marks
1/3
Assignment 3: Hashtable
Due No Due Date
Points 100
Submitting a file upload
Start Assignment
Language: Java or Python or C++
Task Description: Complete the following task.
Task-1: Implement a Hash data structure from scratch. You can’t use built-in Hash or Dictionary APIs.
You can use a built-in Array or List or your custom-built LinkedList. The Hash class must have the
following functions and fields -
HashTable: A fixed-size array or list. Depending on your hash function, this array or list can be
one-dimensional or two-dimensional.
hash(x): A hash function that converts a string x to an integer, i.e., index in the hashtable. You
can implement any hash function described in the textbook. Your hash function must have a
collision-resolution mechanism.
insert(x): Insert string x to the HashTable in the index returned by hash(x).
size(): Returns the size of the elements, i.e., the number of keys.
Write sample test cases to validate your implementation.
Task-2: Read and parse each word from the file pride-and-prejudice.txt
(https://canvas.eee.uci.edu/courses/68108/files/28223336?wrap=1)
(https://canvas.eee.uci.edu/courses/68108/files/28223336/download?download_frd=1) . Note that this file is
very large; therefore, reading the text at once will crash your program. You should read the text line by
line. To split a line into words, you can consider anything other than alpha-numeric (i.e. [a-zA-Z0-9])
characters as delimiters, for example, ‘\n’, ‘\t’, ‘,’, ‘.’ etc.
An Anagram is a word or phrase formed by rearranging the letters of a different word or phrase, typically
using all the original letters exactly once. For example, `mango` and `gonma` are anagrams containing
the same characters. Write a function that would find out how many unique anagram-root words are
there in the novel. An anagram-root word is a word that is derived by sorting the word by characters. For
example, `mango`’s anagram root is `agmno`.
To find the number of unique anagram roots, do the following steps.
Assignment 3: Hashtable
2/3
SWE-240P-Rubric
Step-1: While you parse each word from the file, sort the words by character. You can use any
built-in sorting API.
Step-2: Insert the sorted words in the hashtable you implemented above. If the word is already
present in the hashtable, then skip it.
Step-3: Once all the words have been sorted and inserted (or skipped), call the size() function of
the Hash class.
Note: You have to implement the classes from scratch. Please don’t engage in plagiarism in any
manner. See UCI’s policy on academic integrity (https://aisc.uci.edu/students/academic?integrity/promote-integrity.php (https://aisc.uci.edu/students/academic-integrity/promote-integrity.php) ).
Taking help from online materials is okay, but if you have taken any help online, please link the sources
in the comment inside the code.
Assignment 3: Hashtable
3/3
Total Points: 100
Criteria Ratings Pts
20 pts
30 pts
50 pts
Code Quality and Structure
-- Does the code have meaningful variable/method
names
-- Does the code contain comments where necessary?
-- Is the code organized and structured?
-- Is the code properly formatted/indented?
20 pts
Excellent
18 pts
Good
16 pts
Satisfactory
0 pts
No
Marks
Functionality and Correctness
-- Does the code run without any compilation errors
-- Does the implementation handle edge cases?
-- Does the code pass sample test cases?
-- Does the code pass new test cases?
30 pts
Excellent
27 pts
Good
24 pts
Satisfactory
0 pts
No
Marks
Presentation (Demo)
-- How well does the student explain the implemented
approach?
-- How well does the student walk through the
implementation?
-- How well does the student explain the trade-off (e.g.,
time, space complexity)?
-- How well does the student answer any relevant
questions?
50 pts
Excellent
45 pts
Good
40 pts
Satisfactory
0 pts
No
Marks